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Archive for the ‘information science’ category: Page 292

Jul 28, 2016

New Group Takes On Massive Computing Needs of Big Data

Posted by in categories: computing, engineering, information science, neuroscience, robotics/AI

Big Data and Obama’s Brain Initiative — As we harness mass volumes of information and the current tech explosion around information; we will seeing an accelerated growing need/ urgency for more advance AI, QC, and new brain-mind interface intelligence to assist others when working with both super-intelligence AI and the mass volumes of information.


Engineers are experimenting with chip design to boost computer performance. In the above layout of a chip developed at Columbia, analog and digital circuits are combined in a novel architecture to solve differential equations with extreme speed and energy efficiency. Image: Simha Sethumadhavan, Mingoo Seok and Yannis Tsividis/Columbia Engineering.

In the big data era, the modern computer is showing signs of age. The sheer number of observations now streaming from land, sea, air and space has outpaced the ability of most computers to process it. As the United States races to develop an “exascale” machine up to the task, a group of engineers and scientists at Columbia have teamed up to pursue solutions of their own.

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Jul 26, 2016

ComNav releases Quantum algorithm for its OEM boards

Posted by in categories: information science, quantum physics

BTW — make sure you view that reference whitepaper on the new quantum algorithms on OEM boards.


ComNav Technologies has released its new generation Quantum algorithm to international market. The Quantum algorithm can be easily achieved through a firmware upgrade (version 2.5.2 and above), and suits all ComNav OEM boards and OEM-based receivers.

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Jul 24, 2016

An AI Watched 600 Hours of TV and Started to Accurately Predict What Happens Next

Posted by in categories: computing, information science, robotics/AI, security

MIT researchers have created an algorithm that hopes to understand human visual social cues and predict what would happen next. Giving AI the ability to understand and predict human social interaction could one day pave the way to efficient home assistant systems as well as intelligent security cameras that can call an ambulance or the police ahead of time.

MIT’s Computer Science and Artificial Intelligence Laboratory created an algorithm that utilizes deep learning, which enables artificial intelligence (AI) to use patterns of human interaction to predict what will happen next. Researchers fed the program with videos featuring human social interactions and tested it to see if it “learned” well enough to be able to predict them.

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Jul 23, 2016

Manufacturer of explosives trace detection acquiring Flyboard Air creator which has envisions many flying platforms

Posted by in categories: information science, military, robotics/AI

The Zapata technology platform is the safest, easiest, lightest, most maneuverable, and least expensive personal aviation system ever created.

Capable of being operated with only 20 hours of flight training, or in fully autonomous mode with GPS guidance, ZAPATA’s proprietary balance methodology and algorithms are truly disruptive.

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Jul 21, 2016

World’s most powerful quantum computer now online at USC

Posted by in categories: computing, information science, quantum physics, robotics/AI

Good for USC.


Following a recent upgrade, the USC-Lockheed Martin Quantum Computing Center (QCC) based at the USC Information Sciences Institute (ISI) is now the leader in quantum processing capacity.

With the upgrade — to 1,098 qubits from 512 — the D-Wave 2X™ processor is enabling QCC researchers to continue their efforts to close the gap between academic research in quantum computation and real-world critical problems.

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Jul 19, 2016

Dropbox open-sources Lepton, a compression algorithm that cuts JPEG file size

Posted by in categories: computing, information science

Cloud syncing and sharing software company Dropbox today announced that it has released an image compression algorithm called Lepton under an Apache open source license on GitHub.

Lepton can both compress and decompress files, and for the latter, it can work while streaming — that is, files can be expanded back into full size as they are being sent over the network. So Lepton is important for user experience, given how it can more quickly transfer data and show content. But at the same time, it has an impact on the data center infrastructure where files often end up.

“We have used Lepton to encode 16 billion images saved to Dropbox, and are rapidly recoding our older images. Lepton has already saved Dropbox multiple petabytes of space,” Dropbox software systems architect Daniel Reiter Horn wrote in a blog post.

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Jul 19, 2016

Baidu built an AI that composes music after looking at art

Posted by in categories: information science, media & arts, robotics/AI, transportation

When Art Inspires AI; AI composes music.


Who says AI is only for big data crunching and driverless car driving?

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Jul 18, 2016

No Man’s Sky will have a soundtrack written by algorithms

Posted by in categories: information science, mathematics, media & arts

Music for the game is ‘procedurally’ generated as players move through its universe.

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Jul 18, 2016

Columbia Engineering Researchers Use Acoustic Voxels to Embed Sound with Data

Posted by in categories: 3D printing, biotech/medical, engineering, information science

Columbia Engineering Professor Changxi Zheng’s new approach could lead to better tagging and coding, leveraging 3D printing of complex geometries.

New York — July 18, 2016 — Columbia Engineering researchers, working with colleagues at Disney Research and MIT, have developed a new method to control sound waves, using a computational approach to inversely design acoustic filters that can fit within an arbitrary 3D shape while achieving target sound filtering properties. Led by Computer Science Professor Changxi Zheng, the team designed acoustic voxels, small, hollow, cube-shaped chambers through which sound enters and exits, as a modular system. Like Legos, the voxels can be connected to form an infinitely adjustable, complex structure. Because of their internal chambers, they can modify the acoustic filtering property of the structure—changing their number and size or how they connect alters the acoustic result.

“In the past, people have explored computational design of specific products, like a certain type of muffler or a particular shape of trumpet,” says Zheng, whose team is presenting their paper, “Acoustic Voxels: Computational Optimization of Modular Acoustic Filters,” at SIGGRAPH 2016 on July 27. “The general approach to manipulating sound waves has been to computationally design chamber shapes. Our algorithm enables new designs of noise mufflers, hearing aids, wind instruments, and more — we can now make them in any shape we want, even a 3D-printed toy hippopotamus that sounds like a trumpet.” VIDEO: http://www.cs.columbia.edu/cg/lego/

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Jul 18, 2016

Can we find a quantum-resistant algorithm before it’s too late?

Posted by in categories: computing, information science, internet, quantum physics, security

The warning from QuintessenceLabs’ CTO John Leisoboer is stark. “When sufficiently powerful quantum computers become generally available,” he says, “it’s guaranteed to break all existing cryptographic systems that we know of.”

In other words, he adds, “Everything that we’re doing today will be broken.”

It’s a sentiment echoed by Google’s Chrome security software engineer Matt Braithwaite who wrote in a blog post earlier this month that “a hypothetical, future quantum computer would be able to retrospectively decrypt any internet communication that was recorded today”.

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